Citation

Bourke AK, Klenk J, Schwickert L, Aminian K, Ihlen EA, Mellone S, Helbostad JL, Chiari L, Becker C, Bourke AK, Klenk J, Schwickert L, Aminian K, Ihlen EA, Mellone S, Helbostad JL, Chiari L, Becker C, Chiari L, Schwickert L, Aminian K, Becker C, Helbostad JL, Klenk J, Bourke AK, Mellone S, Ihlen EA. Conf. Proc. IEEE Eng. Med. Biol. Soc. 2016; 2016: 3712-3715.

Copyright

(Copyright © 2016, IEEE (Institute of Electrical and Electronics Engineers))

DOI

10.1109/EMBC.2016.7591534

PMID

28227321

Abstract

Automatic fall detection will promote independent living and reduce the consequences of falls in the elderly by ensuring people can confidently live safely at home for linger. In laboratory studies inertial sensor technology has been shown capable of distinguishing falls from normal activities. However less than 7% of fall-detection algorithm studies have used fall data recorded from elderly people in real life. The FARSEEING project has compiled a database of real life falls from elderly people, to gain new knowledge about fall events and to develop fall detection algorithms to combat the problems associated with falls. We have extracted 12 different kinematic, temporal and kinetic related features from a data-set of 89 real-world falls and 368 activities of daily living. Using the extracted features we applied machine learning techniques and produced a selection of algorithms based on different feature combinations. The best algorithm employs 10 different features and produced a sensitivity of 0.88 and a specificity of 0.87 in classifying falls correctly. This algorithm can be used distinguish real-world falls from normal activities of daily living in a sensor consisting of a tri-axial accelerometer and tri-axial gyroscope located at L5.

Language: en